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使用放射性射束和放射性目标带来丰厚收益:nTOF和ISOLDE设施最近的亮点

A rich revenue from the use of radioactive beams and radioactive targets: recent highlights from the nTOF and ISOLDE facilities
课程网址: http://videolectures.net/cernacademictraining08_huyse_rrur/  
主讲教师: Mark Huyse
开课单位: 鲁汶大学
开课时间: 2010-09-17
课程语种: 英语
中文简介:
同位素质量分离器ISOLDE是一种致力于生产各种放射性离子束的设备,用于许多不同的实验,例如在核和原子物理、固体物理、生命科学和材料科学领域。在伊索尔德,放射性核素是通过分裂、裂变或碎裂反应在厚的高温目标中产生的。目标被放置在PSB的外部质子束中,其能量为1.0或1.4 GeV,强度约为2 microA。目标和离子源一起代表一个小型化工厂,用于将核反应产物转化为放射性离子束。一个电场加速了离子,这些离子被质量分离并被引导到实验中。到目前为止,60多种元素(Z=2到88)的600多种同位素的半衰期可达毫秒,强度可达每秒1011个离子。通过使用x - isolde电荷增殖器和线性加速器的后加速光束的出现,利用转移反应和外来核种的库仑激发来探测核性质成为可能。nTOF中子飞行时间设施,是一个中子源,自2001年以来一直在欧洲核子研究中心的操作使用20 GeV的质子束质子同步加速器PS nTOF中子束的概念。利用专门的高通量的中子可以使用20 GeV质子的蜕变过程扩展的主要目标。高中子通量、低重复率和卓越的能量分辨率为在1 eV到250 MeV的能量范围内进行高精度的截面测量开辟了新的可能性,以获得稳定的辐射目标。第一讲将介绍这两个设施的最新亮点。在伊索尔德获得的结果不仅对原子核的基本理解有意义,而且对天体物理学和弱相互作用物理学等相关领域也有意义。纯放射性植入物的可能性为研究固态物理问题,特别是半导体中的杂质和缺陷打开了大门。利用放射性同位素进行诊断和治疗的生物医学研究已经将生命科学引入研究项目。nTOF设备可以精确测量中子相关过程,这些过程与几个领域有关。其中一个例子是核天体物理学,n_TOF产生的数据用于研究普通恒星的演化以及超新星。在研究放射性核废料的焚化过程和更好地了解用强子束治疗肿瘤时辐射的影响方面,强中子束也是至关重要的。
课程简介: The On-Line Isotope Mass Separator ISOLDE is a facility dedicated to the production of a large variety of radioactive ion beams for a great number of different experiments, e.g. in the field of nuclear and atomic physics, solid-state physics, life sciences and material science. At ISOLDE, radioactive nuclides are produced in thick high-temperature targets via spallation, fission or fragmentation reactions. The targets are placed in the external proton beam of the PSB, which has an energy of 1.0 or 1.4 GeV and an intensity of about 2 microA. The target and ion-source together represent a small chemical factory for converting the nuclear reaction products into a radioactive ion beam. An electric field accelerates the ions, which are mass separated and steered to the experiments. Until now more than 600 isotopes of more than 60 elements (Z=2 to 88) have been produced with half-lives down to milliseconds and intensities up to 1011 ions per second. Through the advent of post-accelerated beams with the REX-ISOLDE charge breeder and linear accelerator, probing nuclear properties using transfer reactions and Coulomb excitation of exotic nuclear species is now possible. The neutron time-of-flight facility, nTOF, is a neutron source that has been operating at CERN since 2001 using the 20 GeV proton beam from the Proton Synchrotron PS. The concept of the nTOF neutron beam makes use of both the specifically high flux of neutrons attainable using the spallation process of 20 GeV protons on an extended lead target. The high neutron flux, the low repetition rates and the excellent energy resolution has opened new possibilities to high precision cross section measurements in the energy range from 1 eV to 250 MeV, for stable and, moreover, for radioactive targets. This first lecture will deal with recent highlights of the two facilities. The results obtained at ISOLDE have implications for the basic understanding of the atomic nucleus, but also for related fields like astrophysics and weak-interaction physics. The possibility of pure radioactive implants opens access to the investigation of problems in solid-state physics, in particular concerning impurities and defects in semiconductors. Biomedical studies using radioactive isotopes for diagnosis and therapy have introduced life-science into the research program. The nTOF facility allows precise measurements of neutron related processes that are relevant for several fields. One example is nuclear astrophysics where data produced by n_TOF are used to study the ordinary stellar evolution as well as supernovae. Intense neutron beams are also critical in the studies of processes of incineration of radioactive nuclear waste and for a better understanding of the effects of radiation in the treatment of tumors with beams of hadrons.
关 键 词: 同位素质量分离器; 放射性离子束; 放射性核素; 质子束; 强中子束
课程来源: 视频讲座网
最后编审: 2019-10-22:cwx
阅读次数: 54